ProfessorsProfessors of Universidad Complutense de MadridCarlos Vega (ORCID:0000-0002-2417-9645)

Carlos Vega (ORCID:0000-0002-2417-9645)

Universidad Complutense de Madrid

H-index: 67

Europe-Spain

About Carlos Vega (ORCID:0000-0002-2417-9645)

Carlos Vega (ORCID:0000-0002-2417-9645), With an exceptional h-index of 67 and a recent h-index of 42 (since 2020), a distinguished researcher at Universidad Complutense de Madrid, specializes in the field of Physical Chemistry - Chemical Physics - water -tip4p/2005-Madrid force field- Monte Carlo - Molecular Dynamics.

His recent articles reflect a diverse array of research interests and contributions to the field:

Madrid-2019 force field: An extension to divalent cations Sr2+ and Ba2+

Three-phase equilibria of hydrates from computer simulation. I. Finite-size effects in the methane hydrate

Accurate Free Energies of Aqueous Electrolyte Solutions from Molecular Simulations with Non-polarizable Force Fields

Mold: a LAMMPS package to compute interfacial free energies and nucleation rates

Solubility of CO2 in salty water: adsorption, interfacial tension and salting out effect

Minimum in the pressure dependence of the interfacial free energy between ice Ih and water

On the possible locus of the liquid–liquid critical point in real water from studies of supercooled water using the TIP4P/Ice model

Homogeneous nucleation rate of methane hydrate formation under experimental conditions from seeding simulations

Carlos Vega (ORCID:0000-0002-2417-9645) Information

University	Universidad Complutense de Madrid
Position	Professor of Physical Chemistry
Citations(all)	21226
Citations(since 2020)	8780
Cited By	15966
hIndex(all)	67
hIndex(since 2020)	42
i10Index(all)	206
i10Index(since 2020)	115
Email	Access Email
University Profile Page	Universidad Complutense de Madrid
Google Scholar	View Google Scholar Profile

Carlos Vega (ORCID:0000-0002-2417-9645) Skills & Research Interests

Physical Chemistry - Chemical Physics - water -tip4p/2005-Madrid force field- Monte Carlo - Molecular Dynamics

Top articles of Carlos Vega (ORCID:0000-0002-2417-9645)

Title	Journal	Author(s)	Publication Date
Madrid-2019 force field: An extension to divalent cations Sr2+ and Ba2+	The Journal of Chemical Physics	S Blazquez Ian C Bourg C Vega	2024/1/28
Three-phase equilibria of hydrates from computer simulation. I. Finite-size effects in the methane hydrate	The Journal of Chemical Physics	J Algaba S Blazquez JM Míguez MM Conde FJ Blas	2024/4/28
Accurate Free Energies of Aqueous Electrolyte Solutions from Molecular Simulations with Non-polarizable Force Fields	The Journal of Physical Chemistry Letters	Parsa Habibi H Mert Polat Samuel Blazquez Carlos Vega Poulumi Dey ...	2024/4/4
Mold: a LAMMPS package to compute interfacial free energies and nucleation rates	Journal of Open Source Software	Jorge R Tejedor Andres R and Sanchez-Burgos Ignacio and Sanz Eduardo and Vega Carlos and Blas ...	2024/3
Solubility of CO2 in salty water: adsorption, interfacial tension and salting out effect	Molecular Physics	S Blazquez MM Conde C Vega	2024/1/31
Minimum in the pressure dependence of the interfacial free energy between ice Ih and water	The Journal of Chemical Physics	P Montero de Hijes J R Espinosa C Vega C Dellago	2023/3/28
On the possible locus of the liquid–liquid critical point in real water from studies of supercooled water using the TIP4P/Ice model	The Journal of Chemical Physics	Jorge R Espinosa Jose Luis F Abascal Lucia F Sedano Eduardo Sanz Carlos Vega	2023/5/28
Homogeneous nucleation rate of methane hydrate formation under experimental conditions from seeding simulations	The Journal of chemical physics	Joanna Grabowska Samuel Blazquez Eduardo Sanz Eva G Noya Iván M Zerón ...	2023/3/21
Further extension of the Madrid-2019 force field: Parametrization of nitrate (NO3−) and ammonium (NH4+) ions	The Journal of Chemical Physics	Víctor M Trejos Marcos de Lucas Carlos Vega Samuel Blazquez Francisco Gámez	2023/12/14
Solubility of carbon dioxide in water: Some useful results for hydrate nucleation.	The Journal of Chemical Physics	Jesús Algaba Iván M Zerón José Manuel Míguez Joanna Grabowska Samuel Blazquez ...	2023/5/14
2021 JCP Emerging Investigator Special Collection	The Journal of Chemical Physics	Michele Ceriotti Lasse Jensen David E Manolopoulos Todd Martinez David R Reichman ...	2023/2/14
Building a Hofmeister-like series for the maximum in density temperature of aqueous electrolyte solutions	Journal of Molecular Liquids	F Gámez LF Sedano S Blazquez J Troncoso C Vega	2023/5/1
Growth rate of CO2 and CH4 hydrates by means of molecular dynamics simulations	The Journal of Chemical Physics	S Blazquez M M Conde C Vega E Sanz	2023/8/14
Scaled charges for ions: An improvement but not the final word for modeling electrolytes in water	The Journal of Chemical Physics	S Blazquez MM Conde C Vega	2023/2/7
The water cavitation line as predicted by the TIP4P/2005 model	The Journal of Chemical Physics	Cintia P. Lamas Carlos Vega Eva G. Noya Eduardo Sanz	2023/3/28
Three phase equilibria of the methane hydrate in NaCl solutions: A simulation study	Journal of Molecular Liquids	S Blazquez C Vega MM Conde	2023/8/1
Estimation of bubble cavitation rates in a symmetrical Lennard-Jones mixture by NVT seeding simulations	The Journal of Chemical Physics	Cintia P Lamas Eduardo Sanz Carlos Vega Eva G Noya	2023/3/28
Computation of Electrical Conductivities of Aqueous Electrolyte Solutions: Two Surfaces, One Property	Journal of chemical theory and computation	Samuel Blazquez Jose LF Abascal Jelle Lagerweij Parsa Habibi Poulumi Dey ...	2023/7/28
On the thermodynamics of curved interfaces and the nucleation of hard spheres in a finite system	The Journal of Chemical Physics	P Montero de Hijes C Vega	2022/1/7
Solubility of Methane in Water: Some Useful Results for Hydrate Nucleation	The Journal of Physical Chemistry B	Joanna Grabowska Samuel Blazquez Eduardo Sanz Iván M Zerón Jesús Algaba ...	2022/10/12